DE1653500A1 - Hydraulic piston pump - Google Patents

Description

Patent application

Applicant: Company Langen & Co.

4 Düsseldorf, Klosterstr. 49

Designation! Hydraulic piston pump

The invention relates to a hydraulic piston pump in which the inlet of liquid through openings in the cylinder wall, which are controlled by the piston during the pressure stroke, while the pressure side has an outlet valve is provided.

It is well known that hydraulic pumps are used in high pressures and speeds tend to generate a lot of noise. The reason for this is the steep rise in pressure and waste during the changeover processes Looking for. This creates vibrations in the mechanically stressed parts of a pump, which lead to a sound absorption. lead radiation.

These phenomena can be seen in different types of pumps mitigate by pre-compression and post-expansion. In the case of the pump type described above, these measures fail but, since the piston itself controls the suction.

It is also known between the drive and the piston to insert resilient means. As a result, however, relatively complex constructions are necessary. Also is It is difficult, especially at high pressures and confined spaces, to find springs with sufficient rigidity to be built in.

It is the object of the invention to report these disadvantages.

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This problem is solved by the fact that the cylinder volume is essentially relative to the stroke volume is increased / so that due to the compressibility of the liquid, the pressure rise at the beginning of the effective Pressure stroke takes place more slowly depending on the volume increase.

In a favorable embodiment of the invention, the cylinder is a necessary sealing length from the inlet opening removed, expanded to a diving chamber. It is also possible to have the additional space in another location to be arranged and it with the cylinder space through lines connect to. »

Figure 1 shows a single piston pump. Figure 2 shows the theoretical course of the pressure increase over time as a function of the total cylinder volume.

A piston slides in a bore 1 of a housing 2 This piston 3 is in a force-locking connection with an eccentric disk 4. This frictional connection is through a spring 5 caused, on the one hand against the piston 3 and on the other hand against a shoulder 6 of the housing 2 is supported. The eccentric 4 is of a shaft 7 driven. The inlet of the liquid into the cylinder space 8 takes place via a bore 9 and a ring channel 1 ©. By a seal length from the annular channel Io away, the cylinder space expands to

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a diving chamber Ii. Between pressure line 12 and diving chamber 11 is a spring loaded discharge valve 13 arranged.

This pump works as follows: In the position shown, the piston has reached its bottom dead center, ie the suction process has just ended. If the shaft 7 and thus the eccentric disk 4 are now rotated further, the piston 3 moves inwards according to the eccentricity. At first, no liquid is conveyed. The effective pressure stroke begins only after the piston has passed the annular channel Io. Since the check valve 13 is pressurized via the pressure line 12, a slightly higher pressure must be generated in the cylinder space 8 or in the diving chamber 11 in order to open this valve. The speed of this pressure increase depends firstly on the leakage oil flowing past the piston 3 into the annular channel Io and secondly on the total cylinder volume available (3, 11). The larger this total volume, the slower the pressure increase takes place in accordance with the compressibility of the liquid, and the lower the mechanical stresses on the pump and the associated noises. Assuming that no leakage oil flows, the pressure increase as a function of time and as a function of the total cylinder volume ( 6, 11) is shown schematically in Fig. 2. After opening the outlet valve 13, the liquid volume does not increase

compressed and the remaining stroke of the piston 3 comes only benefit the funding. After the end of the pressure stroke, the stroke is reversed. The liquid expands to atmospheric pressure, and the remaining suction stroke creates a negative pressure. Because of this negative pressure, liquid flows from the bore 9 and the annular channel Io into the Cylinder space 8 as soon as the piston 3 enters the annular channel opens up. The suction stroke that follows and the subsequent, initially ineffective pressure stroke are necessary for a sufficient filling time.

Of course, the invention is not limited to that The embodiment shown is limited, but it can also be used for pumps with multiple pistons will. The arrangement of the additional volume does not need to be done in the form of a diving chamber.

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Claims (1)

- 5- claim Hydraulic piston pump in which the inlet of Liquid through openings in the cylinder wall / which are controlled during the pressure stroke at the piston, takes place, while the pressure side is provided with an outlet valve, characterized in that the total cylinder volume (8, 11) is significantly increased relative to the stroke volume, so that due to the compressibility of the liquid, the pressure increase at the beginning of the effective pressure stroke as a function of the volume increase takes place more slowly. 209824/00 7 Blank page